Unscramble the Blue Letters

Now, the diagram that you see here, I know it looks like some kind of sorpts play, but it is actually a blueprint of the first bacterial program I developed. And like writing software, we can print and witre DNA into different algorithms and programs inside of bacteria. What this prgoram does is produces fluorescent proteins in a rhythmic fashion and genreaets a small molecule that allows bacteria to communicate and synchronize, as you're seeing in this mvioe. The growing colony of bacteria that you see here is about the width of a human hair. Now, what you can't see is that our genetic program instructs these bacteria to each pourdce small molecules, and these molecules travel between the thousands of individual bacteria telling them when to turn on and off. And the bcaetria synchronize quite well at this scale, but because the molecule that synchronizes them together can only travel so fast, in larger colonies of bacteria, this results in traveling waves between bacteria that are far away from each other, and you can see these weavs going from right to left across the screen.

Open Cloze

Now, the diagram that you see here, I know it looks like some kind of ______ play, but it is actually a blueprint of the first bacterial program I developed. And like writing software, we can print and _____ DNA into different algorithms and programs inside of bacteria. What this _______ does is produces fluorescent proteins in a rhythmic fashion and _________ a small molecule that allows bacteria to communicate and synchronize, as you're seeing in this _____. The growing colony of bacteria that you see here is about the width of a human hair. Now, what you can't see is that our genetic program instructs these bacteria to each _______ small molecules, and these molecules travel between the thousands of individual bacteria telling them when to turn on and off. And the ________ synchronize quite well at this scale, but because the molecule that synchronizes them together can only travel so fast, in larger colonies of bacteria, this results in traveling waves between bacteria that are far away from each other, and you can see these _____ going from right to left across the screen.

Solution

movie

program

bacteria

waves

generates

write

sports

produce

Original Text

Now, the diagram that you see here, I know it looks like some kind of sports play, but it is actually a blueprint of the first bacterial program I developed. And like writing software, we can print and write DNA into different algorithms and programs inside of bacteria. What this program does is produces fluorescent proteins in a rhythmic fashion and generates a small molecule that allows bacteria to communicate and synchronize, as you're seeing in this movie. The growing colony of bacteria that you see here is about the width of a human hair. Now, what you can't see is that our genetic program instructs these bacteria to each produce small molecules, and these molecules travel between the thousands of individual bacteria telling them when to turn on and off. And the bacteria synchronize quite well at this scale, but because the molecule that synchronizes them together can only travel so fast, in larger colonies of bacteria, this results in traveling waves between bacteria that are far away from each other, and you can see these waves going from right to left across the screen.